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#Post#: 74-------------------------------------------------- |
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Operation Theatre |
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By: osmaniaortho Date: April 22, 2012, 2:27 am |
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Includes |
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� Properly preparing a client for clinical procedures |
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� Handwashing |
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� Surgical hand scrub |
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� Using barriers such as gloves and surgical attire |
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� Maintaining a sterile field |
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� Using good surgical technique |
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� Maintaining a safe environment in the surgical/procedure area |
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External link for download |
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http://www.ems.org.eg/esic_home/data/giued_part2/Operating%20Theatre.pdf<br |
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/> |
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#Post#: 75-------------------------------------------------- |
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Re: Operation Theatre |
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By: osmaniaortho Date: April 22, 2012, 5:30 am |
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Operating-Room Environment |
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Introduction | Preoperative Period | Operating-Room Environment |
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| Postoperative Period | Overview | References |
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Clean-Air Technology |
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The use of ultraviolet light to sterilize air particles carrying |
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bacteria was initiated in 1936, but the absolute effectiveness |
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of this technology in the clinical setting has not been |
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definitively determined, as studies to date have been |
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retrospective, with comparison of clinical experiences and |
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historical controls41,50,64. The lack of conclusive clinical |
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studies combined with concern regarding exposure of |
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operating-room personnel to ultraviolet light has led to only |
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tentative acceptance of this methodology. However, recent |
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cost-effectiveness comparisons have created a resurgent interest |
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in ultraviolet-light technology since it is considerably less |
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expensive than laminar airflow systems8,64. |
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In 1969, Charnley and Eftekhar reported a dramatic reduction in |
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the prevalence of postoperative infection after total hip |
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arthroplasty, from 9 per cent (seventeen of 190) to 1 per cent |
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(nine of 708), with the implementation of a clean-air operating |
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theater16. Careful analysis of their data suggested that |
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multiple factors over the course of the study, such as the |
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method of subcutaneous wound closure and the use of antibiotics, |
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may also have contributed to the reduced rate of infection. In a |
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subsequent report that attempted to clarify these other |
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variables, Charnley concluded that clean air was the most |
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important factor but was not the sole reason for this reduction |
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in the prevalence of infection15. It should be noted that he |
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suggested that clean air is optimally provided by a combination |
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of laminar airflow, with a room-air-exchange turnover rate of |
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more than 300 times an hour; the use of a vertical airflow |
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system; and the use of personnel isolator suits. He also |
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stressed that horizontal laminar airflow systems should be used |
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with body-exhaust systems and impermeable gowns15. Finally, he |
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stated: "I most certainly do not wish to be reported as |
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advocating clean air as a panacea for all surgeon's problems of |
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sepsis in total hip replacement."15 |
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Subsequently, substantial interest developed in the use of |
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clean-air technology as a method of preventing infection in |
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association with total joint arthroplasty. Many initial studies |
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retrospectively evaluated the efficacy of laminar airflow |
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systems by comparing historical rates of infection, and a |
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thorough review by Nelson et al. detailed many of these |
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studies85. A large multicenter prospective randomized clinical |
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trial62 evaluating the effect of laminar airflow during 6781 hip |
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arthroplasties and 1274 knee arthroplasties performed between |
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1974 and 1979 was published in 1982. Infection occurred in |
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sixty-three (1.5 per cent) of 4129 patients in the control group |
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and in only twenty-three (0.6 per cent) of 3923 patients in the |
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ultraclean-air group (p < 0.001)62. Although these results |
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seemed to provide irrefutable evidence as to the efficacy of |
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laminar airflow systems, the study design had flaws that |
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included randomization irregularities and lack of patient |
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stratification, and, furthermore, the use of prophylactic |
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antibiotics was not controlled59. This study did demonstrate |
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clearly that body-exhaust suits reduced the bacterial counts in |
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the room air and, in general, that vertical airflow systems |
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performed better than horizontal airflow systems. The |
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inconsistency in the use of prophylactic antibiotics in this |
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study62 was a major problem because, in the presence of |
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prophylactic antibiotics, the independent effect of laminar |
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airflow was reduction of the prevalence of infection further |
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from twenty-four (0.8 per cent) of 2968 in the control group to |
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ten (0.3 per cent) of 2863 in the ultraclean-air group, which |
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was not significant (p < 0.1) (Table II). However, in the |
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absence of prophylactic antibiotics, the rate of infection was |
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reduced from thirty-nine (3.4 per cent) of 1161 to thirteen (1.2 |
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per cent) of 1060, which was significant (p < 0.01) (Table II). |
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These data suggest that both factors have an independent effect |
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on the reduction of infection but leave open the question of |
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whether laminar airflow is necessary when prophylactic |
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antibiotics are used. |
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A large retrospective study of 2384 total hip arthroplasties |
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resulted in additional doubt about the absolute efficacy of |
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laminar airflow technology when prophylactic antibiotics are |
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used69. Between 1975 and 1978, when none of the patients |
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received prophylactic antibiotics, infection developed after |
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nine (3.1 per cent) of 289 arthroplasties performed in a |
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conventional operating room, compared with nine (2.5 per cent) |
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of 363 arthroplasties performed in a laminar airflow room (p = |
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0.5). After the use of prophylactic antibiotics was initiated in |
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1979, infection developed following six (0.9 per cent) of 669 |
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arthroplasties performed in the conventional operating room, |
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compared with three (0.3 per cent) of 1063 arthroplasties |
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performed in a laminar airflow room. Again, these differences |
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were not significant (p = 0.1). The difference in the rates of |
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infection between the two study periods (2.8 per cent without |
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antibiotic prophylaxis, compared with 0.5 per cent with |
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antibiotic prophylaxis) was highly significant (p < 0.00001)69. |
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Although retrospective, the study was limited to patients who |
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had had the arthroplasty performed by the same surgeons in one |
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hospital and who had received the same prosthesis, and it was |
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based on excellent documentation of the use of prophylactic |
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antibiotics and consistent use of vertical laminar airflow and |
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body-exhaust suits69. |
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A large retrospective study by Salvati et al. of 3175 total hip |
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and knee replacements, performed with or without a horizontal |
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unidirectional filtered airflow system, demonstrated a |
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detrimental effect of laminar airflow104. It is extremely |
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important to note that personnel isolator suits were not used in |
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this study. The paradoxical increase in the rate of infection |
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after total knee arthroplasty performed in the laminar airflow |
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rooms was attributed to positioning of the operating team |
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between the patient and the airflow unit, with subsequent |
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entrainment of air containing particulate matter and bacteria |
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from the operating-room personnel into the operative wound104. |
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The preliminary results were recently reported for a randomized |
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blinded prospective study of 7305 patients who had a total hip |
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or knee arthroplasty with use of horizontal unidirectional |
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airflow and no personnel isolator suits33. All of the patients |
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received antibiotic prophylaxis. Although there was no |
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significant difference in the rate of deep periprosthetic |
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infection between the patients who had the procedure in a room |
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with activated laminar airflow and those who had it in the |
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presence of conventional airflow, it should be noted that these |
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preliminary results essentially parallel the results of Salvati |
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et al.104, in that there was a trend toward a higher rate of |
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infection in some groups with laminar airflow but not in others. |
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These recent studies emphasize the need for appropriate |
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application of clean-air technology and the paradoxical effects |
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that can occur with the misunderstanding of clean-air concepts. |
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Although there is still considerable controversy regarding the |
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necessity of laminar airflow for the performance of total joint |
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arthroplasty if prophylactic antibiotics are used, the following |
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points can be reasonably drawn from the available literature. |
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1. Vertical laminar airflow units generally reduce airborne |
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contamination better than horizontal airflow units. This is |
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especially true when personnel isolator suits are not used. |
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2. Strict attention to laminar airflow protocol is essential, |
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and there can be paradoxical increases in the rates of infection |
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if these concepts are disregarded. |
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3. During the past few decades, the appropriate use of clean-air |
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technology to reduce airborne contamination has reduced the |
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prevalence of infection after total hip and knee arthroplasty. |
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4. The current literature has not established that clean-air |
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technology can greatly reduce the prevalence of infection when |
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prophylactic antibiotics are also used. However, if the rate of |
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early postoperative infection following the procedures performed |
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by an individual surgeon or at a specific institution exceeds |
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four or five per 1000 total hip arthroplasties and six, seven, |
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or eight per 1000 total knee arthroplasties, the use of some |
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method of clean-air technology should be considered to reduce |
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further the prevalence of infection15,16,33,49,61,62,108. It is |
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important to remember that, with this low prevalence of |
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infection of less than 1 per cent, analysis of more than 6000 |
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patients is required to achieve the statistical power necessary |
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to determine the effect of any one independent variable, such as |
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airflow, on the rate of infection after total joint |
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replacements. |
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